Beat Browser by Jeffrey D. Goldenson B.A. Architecture Princeton University, 1999 SUBMITTED TO THE PROGRAM IN MEDIA ARTS AND SCIENCES SCHOOL OF ARCHITECTURE AND PLANNING IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE AT THE MASSACHUSETTS INSTITUTE OF TECHNOLOGY JULY 2007 ©2007 All rights reserved. Author Program in Media Arts and Sciences July 6, 2007 Certified by Christopher Schmandt Principal Research Scientist M.I.T. Media Laboratory Thesis Supervisor Accepted by Andrew Lippman Chairperson Department Committee on Graduate Students BEAT BROWSER by JEFFREY D. GOLDENSON Submitted to the Program in Media Arts and Sciences, School of Architecture and Planning on July 6, 2007 in partial fulfillment of the requirements for the Degree of Master of Science ABSTRACT Beat Browser is a music browsing environment that delivers immediate audio feedback while browsing arbitrarily large music collections. The goal of Beat Browser is to give users a sense of exploring “live” and continuous audio while rapidly moving between sources by mouse. It appears their entire universe of music is playing all the time, whether they’re there listening or not. Beat Browser’s Universal Time Base architecture keeps a central clock running that manages the playback position of every piece of music launched, orchestrating this perceptual illusion. Thesis Supervisor: Christopher M. Schmandt Title: Principal Research Scientist, M.I.T. Media Laboratory 3 4 Thesis Committee Thesis Advisor: Christopher M. Schmandt Principal Research Scientist M.I.T Media Laboratory Thesis Reader: Barry Blesser, Ph.D. Thesis Reader: William Gardner, Ph.D. Acknowledgements First, I’d like to thank my advisor Chris Schmandt for pro- viding really sharp insights and guidance throughout the research process. I’d also like to thank him for accepting me into the Speech and Mobility Group, I’ve had a great time here. Linda Peterson, for being a fantastic, and unfailingly honest, guide through my experiences here at The Lab. Without her, I would not have had the experience I had. My group mates for welcoming me and making me feel at home. Kent Larson, for accepting me into the program. I’d like to thank my readers, Barry Blesser and Bill Gardner. I’ve really appreciated our conversations and both of your input, both directly, and by example. Robert Burkhardt, who’s coding experience was invaluable. My parents for their support. My brother Andy, for being an engineer who always made time to bail me out of numerous situations. I’d also like to thank him for donating the hardware behind the Spatial Player research. And finally my wife Natalie. Your perspective has been refreshing and your support awesome. Thanks partner, I couldn’t have done it without you. 7 8 Table Of Contents 1. Introduction a) The Problem b) The Concept c) How It Works 2. In Context a) Music Access b) Building Playlists 3. Development a) Ultrasonic Sensor b) Spatial Player c) Beat Browser 3D 4. Beat Browser 5. Design Principles 6. Related Work a) Spatial Player b) Beat Browser 7. Future Work 8. Conclusion 9. Bibliography 9 1. Introduction “In the 70’s I came up with a word for this kind of music that more and more people were starting to do which I called Ambient Music. And that was quite a different idea [from narrative music], that was the idea of music as a sort of steady state condition that you entered, stayed in for a while, then left. Music as painting [rather] than as narrative.... It’s closer to sitting by a river than to listening to an orchestra. Brian Eno Brian Eno, in conversation with Will Wright, “Playing With Time,” The Long Now Foundation, June, 2006 The steady state nature of Ambient Music and the nature of Beat Browser form a useful parallel. Beat Browser is a kind of steady state music browsing environment, designed to be entered, stayed in for a while, then left. Like Ambient Music, Beat Browser is always happening. It isn’t stopped or started, it just is. a) The Problem Software music players are designed implicitly with search in mind. These tools are optimal when you know what you’re looking for. They are a multi-step experience that may be broken down as follows: 1. Establish what you’d like to listen to duration unknown 10 2. Scroll, navigate or begin typing to find that artist’s name approx. 3 seconds 3. Select the song approx. 1 second 4. Commence playback approx. 1 second until the audio is audible Cumulatively, this is a ~five second delay between when you begin search to when you actually hear something. Beat Browser argues that these five seconds are the problem. They quickly add up. These five seconds are full of reading, decision making and fine-motor mouse interaction. This focused cueing takes the fun out of any kind of music browsing or “shopping around.” It’s a lot of work that doesn’t have anything to do with listening to music. And it’s this work that discourages people from trying something new. Beat Browser is explicitly designed with browsing in mind. It welcomes you not with a linear list, but with 2D field of album art. It ushers you into your collection with immediate musical response, letting you sift and surf until something catches your ear. Yahoo! Music Unlimited Apple’s iTunes with CoverFlow, the album cover visualization, open Beat Browser, displaying the basic welcome view There are distinct scenarios where browsing is preferred to search. Beat Browser focuses on two often interrelated tasks: playlist building and music discovery. Playlist building is the act of compiling a selected set of songs for extended playback. Music discovery is finding new music you enjoy or uncovering old favorites long neglected. 11 These use cases are under served by current software music tools. Beat Browser’s design addresses these needs specifically: 1. Instantaneous audio delivery for quicker discrimination 2. Fluid sound design to limit listener fatigue 3. Intuitive controls supporting casual, 2-axis gross-motor interaction b.) Concept “What would it sound like if every one of your songs, on every one of your albums was playing all the time?” This was the thought that inspired Beat Browser. Beat Browser creates the illusion that your entire universe of music is playing – beginning the moment you start-up the application. As a listener you skip between songs and albums as time flows forward in the universe, forming a kind of “river of music.” Where you begin listening inside each song, album or playlist, is completely determined by how long you’ve been running Beat Browser. c.) How It Works At the outset of launching the application a central clock is started. Mousing over album covers or song wedges, representing its tracks, each piece of music asks this central clock, the Universal Time Base (UTB), how long Beat Browser has been open. If you’ve launched the application at 1:23:02 pm, and proceed to listen to an album until you mouse over another at 1:42:22 pm, this second album will begin 19:20 into the album. If we assume we’re listening to a Pop album where every song is 3:30 long, we’ll find ourselves approximately 1:52 seconds into the 6th song, minus the gaps between the songs. If you’re navigating songs, and not albums or you have been listening This is the Halo open. The Halo continuously for longer than the length of an album, Beat Browser takes is dynamically divided for each al- the modulus to determine playback position. We’ll use a songs as an bum, each wedge represents a track example, but the same concept applies with albums. on the album. Beat Browser takes the Universal Time Base value of 19:20 and divides this by the duration of some song, a 4:20 Elton John tune, for example. Beat Browser discards the integer value and takes the remainder as a percentage of the song length. This percentage of 4:20 is calculated as a time value, and playback begins at this point into the song. This architecture constructs a “live” listening environment for users to enter, listen and build playlists. This architecture perpetrates the central illusion: that Beat Browser is steady state machine, playing the whole universe of available music, whether you’re there to hear it or not. 12 2. In Context a.) Music Access There are two dominant paradigms in how people gain rights to listen to the music they listen to. Buying albums or singles in the store or on-line provides unfettered playback for personal use so long as anti-piracy and copyright legislation is upheld. Subscription-based models, where one joins a music “club” of sorts, is the other paradigm. For a flat monthly fee, members gain access to the vast collection of recorded music. It’s important to give this relatively recent music distribution channel more focus as the vastness of its library is perfectly suited for new music discovery. Currently Beat Browser only runs natively, but the ultimate fruition of the concept would be coupling Beat Browser with the true “universe” of music these clubs contain. As a member you have access, but not control over, this universe. After password clearance, you gain permission to stream these files from the club’s server to your local machine. This must occur over a live internet connection. While you may listen as much as you like, you cannot save these files locally. Rhapsody, the market leader, refers to this concept colloquially as the “Jukebox in the Sky,” as Real Networks’ CEO Rob Glasser likes to describe it.
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